Locating events in a segment of a segmented HPGe detector at KRISS

摘要

A specific segment of the 24 fold segmented HPGe detector was studied for improving the interaction position resolution from several cm to mm.The segmented HPGe detector was modeled by CAD program with their electrodes which was isolated by the Boolean function. The Shockley-Ramo theorem changed the Gauss law to Laplace equation problem for calculating the induced charge on each electrode. Finite Element Method solved the Poisson and Laplace equation with their boundary conditions for Electric field and potential. The drift velocities of charge carriers were compared between both along the < 100 > and one between < 100 > and < 110 > Ge crystal axis at a specific segment and used to simulate the pulse shapes with 1 mm position resolution.Coincidence system between a specific segment and 3 x 3 HPGe detector verified the simulated pulse shapes by comparing these with the experimental ones which are generated at the specific target region with a fixed scattering angle.The experimental and simulated ones were chi(2) fitted to find the least chi(2) value and locate the interaction positions.The interaction positions of experimental pulse shapes were analyzed statistically after the rise time correction along < 100 > and < 110 > Ge crystal axis. The position resolution as FWHM on x, y, and z axis is the 3.12, 4.38 and 8.69 mm with the collimator size 3, 6, and 6 mm, respectively.